/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.camel.component.debezium.springboot;

import java.util.Map;
import org.apache.camel.component.debezium.configuration.OracleConnectorEmbeddedDebeziumConfiguration;
import org.apache.camel.spring.boot.ComponentConfigurationPropertiesCommon;
import org.springframework.boot.context.properties.ConfigurationProperties;

/**
 * Capture changes from a Oracle database.
 * 
 * Generated by camel-package-maven-plugin - do not edit this file!
 */
@ConfigurationProperties(prefix = "camel.component.debezium-oracle")
public class DebeziumOracleComponentConfiguration
        extends
            ComponentConfigurationPropertiesCommon {

    /**
     * Whether to enable auto configuration of the debezium-oracle component.
     * This is enabled by default.
     */
    private Boolean enabled;
    /**
     * Additional properties for debezium components in case they can't be set
     * directly on the camel configurations (e.g: setting Kafka Connect
     * properties needed by Debezium engine, for example setting
     * KafkaOffsetBackingStore), the properties have to be prefixed with
     * additionalProperties.. E.g:
     * additionalProperties.transactional.id=12345&additionalProperties.schema.registry.url=http://localhost:8811/avro
     */
    private Map<String, Object> additionalProperties;
    /**
     * Allows for bridging the consumer to the Camel routing Error Handler,
     * which mean any exceptions (if possible) occurred while the Camel consumer
     * is trying to pickup incoming messages, or the likes, will now be
     * processed as a message and handled by the routing Error Handler.
     * Important: This is only possible if the 3rd party component allows Camel
     * to be alerted if an exception was thrown. Some components handle this
     * internally only, and therefore bridgeErrorHandler is not possible. In
     * other situations we may improve the Camel component to hook into the 3rd
     * party component and make this possible for future releases. By default
     * the consumer will use the org.apache.camel.spi.ExceptionHandler to deal
     * with exceptions, that will be logged at WARN or ERROR level and ignored.
     */
    private Boolean bridgeErrorHandler = false;
    /**
     * Allow pre-configured Configurations to be set. The option is a
     * org.apache.camel.component.debezium.configuration.OracleConnectorEmbeddedDebeziumConfiguration type.
     */
    private OracleConnectorEmbeddedDebeziumConfiguration configuration;
    /**
     * The Converter class that should be used to serialize and deserialize key
     * data for offsets. The default is JSON converter.
     */
    private String internalKeyConverter = "org.apache.kafka.connect.json.JsonConverter";
    /**
     * The Converter class that should be used to serialize and deserialize
     * value data for offsets. The default is JSON converter.
     */
    private String internalValueConverter = "org.apache.kafka.connect.json.JsonConverter";
    /**
     * The name of the Java class of the commit policy. It defines when offsets
     * commit has to be triggered based on the number of events processed and
     * the time elapsed since the last commit. This class must implement the
     * interface 'OffsetCommitPolicy'. The default is a periodic commit policy
     * based upon time intervals.
     */
    private String offsetCommitPolicy;
    /**
     * Maximum number of milliseconds to wait for records to flush and partition
     * offset data to be committed to offset storage before cancelling the
     * process and restoring the offset data to be committed in a future
     * attempt. The default is 5 seconds. The option is a long type.
     */
    private Long offsetCommitTimeoutMs = 5000L;
    /**
     * Interval at which to try committing offsets. The default is 1 minute. The
     * option is a long type.
     */
    private Long offsetFlushIntervalMs = 60000L;
    /**
     * The name of the Java class that is responsible for persistence of
     * connector offsets.
     */
    private String offsetStorage = "org.apache.kafka.connect.storage.FileOffsetBackingStore";
    /**
     * Path to file where offsets are to be stored. Required when offset.storage
     * is set to the FileOffsetBackingStore.
     */
    private String offsetStorageFileName;
    /**
     * The number of partitions used when creating the offset storage topic.
     * Required when offset.storage is set to the 'KafkaOffsetBackingStore'.
     */
    private Integer offsetStoragePartitions;
    /**
     * Replication factor used when creating the offset storage topic. Required
     * when offset.storage is set to the KafkaOffsetBackingStore
     */
    private Integer offsetStorageReplicationFactor;
    /**
     * The name of the Kafka topic where offsets are to be stored. Required when
     * offset.storage is set to the KafkaOffsetBackingStore.
     */
    private String offsetStorageTopic;
    /**
     * Whether autowiring is enabled. This is used for automatic autowiring
     * options (the option must be marked as autowired) by looking up in the
     * registry to find if there is a single instance of matching type, which
     * then gets configured on the component. This can be used for automatic
     * configuring JDBC data sources, JMS connection factories, AWS Clients,
     * etc.
     */
    private Boolean autowiredEnabled = true;
    /**
     * Sets the specific archive log destination as the source for reading
     * archive logs.When not set, the connector will automatically select the
     * first LOCAL and VALID destination.
     */
    private String archiveDestinationName;
    /**
     * The number of hours in the past from SYSDATE to mine archive logs. Using
     * 0 mines all available archive logs
     */
    private Long archiveLogHours = 0L;
    /**
     * Specify how binary (blob, binary, etc.) columns should be represented in
     * change events, including: 'bytes' represents binary data as byte array
     * (default); 'base64' represents binary data as base64-encoded string;
     * 'base64-url-safe' represents binary data as base64-url-safe-encoded
     * string; 'hex' represents binary data as hex-encoded (base16) string
     */
    private String binaryHandlingMode = "bytes";
    /**
     * Regular expressions matching columns to exclude from change events
     */
    private String columnExcludeList;
    /**
     * Regular expressions matching columns to include in change events
     */
    private String columnIncludeList;
    /**
     * A comma-separated list of regular expressions matching fully-qualified
     * names of columns that adds the columns original type and original length
     * as parameters to the corresponding field schemas in the emitted change
     * records.
     */
    private String columnPropagateSourceType;
    /**
     * Optional list of custom converters that would be used instead of default
     * ones. The converters are defined using '.type' config option and
     * configured using options '.'
     */
    private String converters;
    /**
     * The custom metric tags will accept key-value pairs to customize the MBean
     * object name which should be appended the end of regular name, each key
     * would represent a tag for the MBean object name, and the corresponding
     * value would be the value of that tag the key is. For example: k1=v1,k2=v2
     */
    private String customMetricTags;
    /**
     * The adapter to use when capturing changes from the database. Options
     * include: 'logminer': (the default) to capture changes using native Oracle
     * LogMiner; 'xstream' to capture changes using Oracle XStreams
     */
    private String databaseConnectionAdapter = "LogMiner";
    /**
     * The name of the database from which the connector should capture changes
     */
    private String databaseDbname;
    /**
     * Resolvable hostname or IP address of the database server.
     */
    private String databaseHostname;
    /**
     * Name of the XStream Out server to connect to.
     */
    private String databaseOutServerName;
    /**
     * Password of the database user to be used when connecting to the database.
     */
    private String databasePassword;
    /**
     * Name of the pluggable database when working with a multi-tenant set-up.
     * The CDB name must be given via database.dbname in this case.
     */
    private String databasePdbName;
    /**
     * Port of the database server.
     */
    private Integer databasePort = 1528;
    /**
     * Time to wait for a query to execute, given in milliseconds. Defaults to
     * 600 seconds (600,000 ms); zero means there is no limit. The option is a
     * int type.
     */
    private Integer databaseQueryTimeoutMs = 600000;
    /**
     * Complete JDBC URL as an alternative to specifying hostname, port and
     * database provided as a way to support alternative connection scenarios.
     */
    private String databaseUrl;
    /**
     * Name of the database user to be used when connecting to the database.
     */
    private String databaseUser;
    /**
     * A comma-separated list of regular expressions matching the
     * database-specific data type names that adds the data type's original type
     * and original length as parameters to the corresponding field schemas in
     * the emitted change records.
     */
    private String datatypePropagateSourceType;
    /**
     * Specify how DECIMAL and NUMERIC columns should be represented in change
     * events, including: 'precise' (the default) uses java.math.BigDecimal to
     * represent values, which are encoded in the change events using a binary
     * representation and Kafka Connect's
     * 'org.apache.kafka.connect.data.Decimal' type; 'string' uses string to
     * represent values; 'double' represents values using Java's 'double', which
     * may not offer the precision but will be far easier to use in consumers.
     */
    private String decimalHandlingMode = "precise";
    /**
     * The maximum number of retries on connection errors before failing (-1 =
     * no limit, 0 = disabled, 0 = num of retries).
     */
    private Integer errorsMaxRetries = -1;
    /**
     * Specify how failures during processing of events (i.e. when encountering
     * a corrupted event) should be handled, including: 'fail' (the default) an
     * exception indicating the problematic event and its position is raised,
     * causing the connector to be stopped; 'warn' the problematic event and its
     * position will be logged and the event will be skipped; 'ignore' the
     * problematic event will be skipped.
     */
    private String eventProcessingFailureHandlingMode = "fail";
    /**
     * The query executed with every heartbeat.
     */
    private String heartbeatActionQuery;
    /**
     * Length of an interval in milli-seconds in in which the connector
     * periodically sends heartbeat messages to a heartbeat topic. Use 0 to
     * disable heartbeat messages. Disabled by default. The option is a int
     * type.
     */
    private Integer heartbeatIntervalMs = 0;
    /**
     * The prefix that is used to name heartbeat topics.Defaults to
     * __debezium-heartbeat.
     */
    private String heartbeatTopicsPrefix = "__debezium-heartbeat";
    /**
     * Whether the connector should publish changes in the database schema to a
     * Kafka topic with the same name as the database server ID. Each schema
     * change will be recorded using a key that contains the database name and
     * whose value include logical description of the new schema and optionally
     * the DDL statement(s). The default is 'true'. This is independent of how
     * the connector internally records database schema history.
     */
    private Boolean includeSchemaChanges = true;
    /**
     * Whether the connector parse table and column's comment to metadata
     * object. Note: Enable this option will bring the implications on memory
     * usage. The number and size of ColumnImpl objects is what largely impacts
     * how much memory is consumed by the Debezium connectors, and adding a
     * String to each of them can potentially be quite heavy. The default is
     * 'false'.
     */
    private Boolean includeSchemaComments = false;
    /**
     * Specify the strategy used for watermarking during an incremental
     * snapshot: 'insert_insert' both open and close signal is written into
     * signal data collection (default); 'insert_delete' only open signal is
     * written on signal data collection, the close will delete the relative
     * open signal;
     */
    private String incrementalSnapshotWatermarkingStrategy = "INSERT_INSERT";
    /**
     * Specify how INTERVAL columns should be represented in change events,
     * including: 'string' represents values as an exact ISO formatted string;
     * 'numeric' (default) represents values using the inexact conversion into
     * microseconds
     */
    private String intervalHandlingMode = "numeric";
    /**
     * When set to 'false', the default, LOB fields will not be captured nor
     * emitted. When set to 'true', the connector will capture LOB fields and
     * emit changes for those fields like any other column type.
     */
    private Boolean lobEnabled = false;
    /**
     * When set to 'false', the default, the connector will mine both archive
     * log and redo logs to emit change events. When set to 'true', the
     * connector will only mine archive logs. There are circumstances where its
     * advantageous to only mine archive logs and accept latency in event
     * emission due to frequent revolving redo logs.
     */
    private Boolean logMiningArchiveLogOnlyMode = false;
    /**
     * The interval in milliseconds to wait between polls checking to see if the
     * SCN is in the archive logs. The option is a long type.
     */
    private Long logMiningArchiveLogOnlyScnPollIntervalMs = 10000L;
    /**
     * The starting SCN interval size that the connector will use for reading
     * data from redo/archive logs.
     */
    private Long logMiningBatchSizeDefault = 20000L;
    /**
     * The maximum SCN interval size that this connector will use when reading
     * from redo/archive logs.
     */
    private Long logMiningBatchSizeMax = 100000L;
    /**
     * The minimum SCN interval size that this connector will try to read from
     * redo/archive logs. Active batch size will be also increased/decreased by
     * this amount for tuning connector throughput when needed.
     */
    private Long logMiningBatchSizeMin = 1000L;
    /**
     * When set to true the underlying buffer cache is not retained when the
     * connector is stopped. When set to false (the default), the buffer cache
     * is retained across restarts.
     */
    private Boolean logMiningBufferDropOnStop = false;
    /**
     * Specifies the XML configuration for the Infinispan 'events' cache
     */
    private String logMiningBufferInfinispanCacheEvents;
    /**
     * Specifies the XML configuration for the Infinispan 'global' configuration
     */
    private String logMiningBufferInfinispanCacheGlobal;
    /**
     * Specifies the XML configuration for the Infinispan
     * 'processed-transactions' cache
     */
    private String logMiningBufferInfinispanCacheProcessedTransactions;
    /**
     * Specifies the XML configuration for the Infinispan 'schema-changes' cache
     */
    private String logMiningBufferInfinispanCacheSchemaChanges;
    /**
     * Specifies the XML configuration for the Infinispan 'transactions' cache
     */
    private String logMiningBufferInfinispanCacheTransactions;
    /**
     * The number of events a transaction can include before the transaction is
     * discarded. This is useful for managing buffer memory and/or space when
     * dealing with very large transactions. Defaults to 0, meaning that no
     * threshold is applied and transactions can have unlimited events.
     */
    private Long logMiningBufferTransactionEventsThreshold = 0L;
    /**
     * The buffer type controls how the connector manages buffering transaction
     * data. memory - Uses the JVM process' heap to buffer all transaction data.
     * infinispan_embedded - This option uses an embedded Infinispan cache to
     * buffer transaction data and persist it to disk. infinispan_remote - This
     * option uses a remote Infinispan cluster to buffer transaction data and
     * persist it to disk.
     */
    private String logMiningBufferType = "memory";
    /**
     * The name of the flush table used by the connector, defaults to
     * LOG_MINING_FLUSH.
     */
    private String logMiningFlushTableName = "LOG_MINING_FLUSH";
    /**
     * When enabled, the transaction log REDO SQL will be included in the source
     * information block.
     */
    private Boolean logMiningIncludeRedoSql = false;
    /**
     * Specifies how the filter configuration is applied to the LogMiner
     * database query. none - The query does not apply any schema or table
     * filters, all filtering is at runtime by the connector. in - The query
     * uses SQL in-clause expressions to specify the schema or table filters.
     * regex - The query uses Oracle REGEXP_LIKE expressions to specify the
     * schema or table filters.
     */
    private String logMiningQueryFilterMode = "none";
    /**
     * Debezium opens a database connection and keeps that connection open
     * throughout the entire streaming phase. In some situations, this can lead
     * to excessive SGA memory usage. By setting this option to 'true' (the
     * default is 'false'), the connector will close and re-open a database
     * connection after every detected log switch or if the
     * log.mining.session.max.ms has been reached.
     */
    private Boolean logMiningRestartConnection = false;
    /**
     * Used for SCN gap detection, if the difference between current SCN and
     * previous end SCN is bigger than this value, and the time difference of
     * current SCN and previous end SCN is smaller than
     * log.mining.scn.gap.detection.time.interval.max.ms, consider it a SCN gap.
     */
    private Long logMiningScnGapDetectionGapSizeMin = 1000000L;
    /**
     * Used for SCN gap detection, if the difference between current SCN and
     * previous end SCN is bigger than
     * log.mining.scn.gap.detection.gap.size.min, and the time difference of
     * current SCN and previous end SCN is smaller than this value, consider it
     * a SCN gap. The option is a long type.
     */
    private Long logMiningScnGapDetectionTimeIntervalMaxMs = 20000L;
    /**
     * The maximum number of milliseconds that a LogMiner session lives for
     * before being restarted. Defaults to 0 (indefinite until a log switch
     * occurs). The option is a long type.
     */
    private Long logMiningSessionMaxMs = 0L;
    /**
     * The amount of time that the connector will sleep after reading data from
     * redo/archive logs and before starting reading data again. Value is in
     * milliseconds. The option is a long type.
     */
    private Long logMiningSleepTimeDefaultMs = 1000L;
    /**
     * The maximum amount of time that the connector will use to tune the
     * optimal sleep time when reading data from LogMiner. Value is in
     * milliseconds. The option is a long type.
     */
    private Long logMiningSleepTimeIncrementMs = 200L;
    /**
     * The maximum amount of time that the connector will sleep after reading
     * data from redo/archive logs and before starting reading data again. Value
     * is in milliseconds. The option is a long type.
     */
    private Long logMiningSleepTimeMaxMs = 3000L;
    /**
     * The minimum amount of time that the connector will sleep after reading
     * data from redo/archive logs and before starting reading data again. Value
     * is in milliseconds. The option is a long type.
     */
    private Long logMiningSleepTimeMinMs = 0L;
    /**
     * There are strategies: Online catalog with faster mining but no captured
     * DDL. Another - with data dictionary loaded into REDO LOG files
     */
    private String logMiningStrategy = "redo_log_catalog";
    /**
     * Duration in milliseconds to keep long running transactions in transaction
     * buffer between log mining sessions. By default, all transactions are
     * retained. The option is a long type.
     */
    private Long logMiningTransactionRetentionMs = 0L;
    /**
     * Comma separated list of usernames to exclude from LogMiner query.
     */
    private String logMiningUsernameExcludeList;
    /**
     * Comma separated list of usernames to include from LogMiner query.
     */
    private String logMiningUsernameIncludeList;
    /**
     * Maximum size of each batch of source records. Defaults to 2048.
     */
    private Integer maxBatchSize = 2048;
    /**
     * Maximum size of the queue for change events read from the database log
     * but not yet recorded or forwarded. Defaults to 8192, and should always be
     * larger than the maximum batch size.
     */
    private Integer maxQueueSize = 8192;
    /**
     * Maximum size of the queue in bytes for change events read from the
     * database log but not yet recorded or forwarded. Defaults to 0. Mean the
     * feature is not enabled
     */
    private Long maxQueueSizeInBytes = 0L;
    /**
     * A semicolon-separated list of expressions that match fully-qualified
     * tables and column(s) to be used as message key. Each expression must
     * match the pattern ':', where the table names could be defined as
     * (DB_NAME.TABLE_NAME) or (SCHEMA_NAME.TABLE_NAME), depending on the
     * specific connector, and the key columns are a comma-separated list of
     * columns representing the custom key. For any table without an explicit
     * key configuration the table's primary key column(s) will be used as
     * message key. Example:
     * dbserver1.inventory.orderlines:orderId,orderLineId;dbserver1.inventory.orders:id
     */
    private String messageKeyColumns;
    /**
     * List of notification channels names that are enabled.
     */
    private String notificationEnabledChannels;
    /**
     * The name of the topic for the notifications. This is required in case
     * 'sink' is in the list of enabled channels
     */
    private String notificationSinkTopicName;
    /**
     * The hostname of the OpenLogReplicator network service
     */
    private String openlogreplicatorHost;
    /**
     * The port of the OpenLogReplicator network service
     */
    private Integer openlogreplicatorPort;
    /**
     * The configured logical source name in the OpenLogReplicator configuration
     * that is to stream changes
     */
    private String openlogreplicatorSource;
    /**
     * Time to wait for new change events to appear after receiving no events,
     * given in milliseconds. Defaults to 500 ms. The option is a long type.
     */
    private Long pollIntervalMs = 500L;
    /**
     * Optional list of post processors. The processors are defined using
     * '.type' config option and configured using options ''
     */
    private String postProcessors;
    /**
     * Enables transaction metadata extraction together with event counting
     */
    private Boolean provideTransactionMetadata = false;
    /**
     * The maximum number of records that should be loaded into memory while
     * streaming. A value of '0' uses the default JDBC fetch size, defaults to
     * '2000'.
     */
    private Integer queryFetchSize = 10000;
    /**
     * A comma-separated list of RAC node hostnames or ip addresses
     */
    private String racNodes;
    /**
     * Time to wait before restarting connector after retriable exception
     * occurs. Defaults to 10000ms. The option is a long type.
     */
    private Long retriableRestartConnectorWaitMs = 10000L;
    /**
     * The name of the SchemaHistory class that should be used to store and
     * recover database schema changes. The configuration properties for the
     * history are prefixed with the 'schema.history.internal.' string.
     */
    private String schemaHistoryInternal = "io.debezium.storage.kafka.history.KafkaSchemaHistory";
    /**
     * The path to the file that will be used to record the database schema
     * history
     */
    private String schemaHistoryInternalFileFilename;
    /**
     * Controls the action Debezium will take when it meets a DDL statement in
     * binlog, that it cannot parse.By default the connector will stop operating
     * but by changing the setting it can ignore the statements which it cannot
     * parse. If skipping is enabled then Debezium can miss metadata changes.
     */
    private Boolean schemaHistoryInternalSkipUnparseableDdl = false;
    /**
     * Controls what DDL will Debezium store in database schema history. By
     * default (true) only DDL that manipulates a table from captured
     * schema/database will be stored. If set to false, then Debezium will store
     * all incoming DDL statements.
     */
    private Boolean schemaHistoryInternalStoreOnlyCapturedDatabasesDdl = false;
    /**
     * Controls what DDL will Debezium store in database schema history. By
     * default (false) Debezium will store all incoming DDL statements. If set
     * to true, then only DDL that manipulates a captured table will be stored.
     */
    private Boolean schemaHistoryInternalStoreOnlyCapturedTablesDdl = false;
    /**
     * Specify how schema names should be adjusted for compatibility with the
     * message converter used by the connector, including: 'avro' replaces the
     * characters that cannot be used in the Avro type name with underscore;
     * 'avro_unicode' replaces the underscore or characters that cannot be used
     * in the Avro type name with corresponding unicode like _uxxxx. Note: _ is
     * an escape sequence like backslash in Java;'none' does not apply any
     * adjustment (default)
     */
    private String schemaNameAdjustmentMode = "none";
    /**
     * The name of the data collection that is used to send signals/commands to
     * Debezium. Signaling is disabled when not set.
     */
    private String signalDataCollection;
    /**
     * List of channels names that are enabled. Source channel is enabled by
     * default
     */
    private String signalEnabledChannels = "source";
    /**
     * Interval for looking for new signals in registered channels, given in
     * milliseconds. Defaults to 5 seconds. The option is a long type.
     */
    private Long signalPollIntervalMs = 5000L;
    /**
     * The comma-separated list of operations to skip during streaming, defined
     * as: 'c' for inserts/create; 'u' for updates; 'd' for deletes, 't' for
     * truncates, and 'none' to indicate nothing skipped. By default, only
     * truncate operations will be skipped.
     */
    private String skippedOperations = "t";
    /**
     * The number of attempts to retry database errors during snapshots before
     * failing.
     */
    private Integer snapshotDatabaseErrorsMaxRetries = 0;
    /**
     * A delay period before a snapshot will begin, given in milliseconds.
     * Defaults to 0 ms. The option is a long type.
     */
    private Long snapshotDelayMs = 0L;
    /**
     * The maximum number of records that should be loaded into memory while
     * performing a snapshot.
     */
    private Integer snapshotFetchSize;
    /**
     * This setting must be set to specify a list of tables/collections whose
     * snapshot must be taken on creating or restarting the connector.
     */
    private String snapshotIncludeCollectionList;
    /**
     * Controls how the connector holds locks on tables while performing the
     * schema snapshot. The default is 'shared', which means the connector will
     * hold a table lock that prevents exclusive table access for just the
     * initial portion of the snapshot while the database schemas and other
     * metadata are being read. The remaining work in a snapshot involves
     * selecting all rows from each table, and this is done using a flashback
     * query that requires no locks. However, in some cases it may be desirable
     * to avoid locks entirely which can be done by specifying 'none'. This mode
     * is only safe to use if no schema changes are happening while the snapshot
     * is taken.
     */
    private String snapshotLockingMode = "shared";
    /**
     * The maximum number of millis to wait for table locks at the beginning of
     * a snapshot. If locks cannot be acquired in this time frame, the snapshot
     * will be aborted. Defaults to 10 seconds. The option is a long type.
     */
    private Long snapshotLockTimeoutMs = 10000L;
    /**
     * The maximum number of threads used to perform the snapshot. Defaults to
     * 1.
     */
    private Integer snapshotMaxThreads = 1;
    /**
     * The criteria for running a snapshot upon startup of the connector. Select
     * one of the following snapshot options: 'always': The connector runs a
     * snapshot every time that it starts. After the snapshot completes, the
     * connector begins to stream changes from the redo logs.; 'initial'
     * (default): If the connector does not detect any offsets for the logical
     * server name, it runs a snapshot that captures the current full state of
     * the configured tables. After the snapshot completes, the connector begins
     * to stream changes from the redo logs. 'initial_only': The connector
     * performs a snapshot as it does for the 'initial' option, but after the
     * connector completes the snapshot, it stops, and does not stream changes
     * from the redo logs.; 'schema_only': If the connector does not detect any
     * offsets for the logical server name, it runs a snapshot that captures
     * only the schema (table structures), but not any table data. After the
     * snapshot completes, the connector begins to stream changes from the redo
     * logs.; 'schema_only_recovery': The connector performs a snapshot that
     * captures only the database schema history. The connector then transitions
     * to streaming from the redo logs. Use this setting to restore a corrupted
     * or lost database schema history topic. Do not use if the database schema
     * was modified after the connector stopped.
     */
    private String snapshotMode = "initial";
    /**
     * When 'snapshot.mode' is set as configuration_based, this setting permits
     * to specify whenever the data should be snapshotted or not.
     */
    private Boolean snapshotModeConfigurationBasedSnapshotData = false;
    /**
     * When 'snapshot.mode' is set as configuration_based, this setting permits
     * to specify whenever the data should be snapshotted or not in case of
     * error.
     */
    private Boolean snapshotModeConfigurationBasedSnapshotOnDataError = false;
    /**
     * When 'snapshot.mode' is set as configuration_based, this setting permits
     * to specify whenever the schema should be snapshotted or not in case of
     * error.
     */
    private Boolean snapshotModeConfigurationBasedSnapshotOnSchemaError = false;
    /**
     * When 'snapshot.mode' is set as configuration_based, this setting permits
     * to specify whenever the schema should be snapshotted or not.
     */
    private Boolean snapshotModeConfigurationBasedSnapshotSchema = false;
    /**
     * When 'snapshot.mode' is set as configuration_based, this setting permits
     * to specify whenever the stream should start or not after snapshot.
     */
    private Boolean snapshotModeConfigurationBasedStartStream = false;
    /**
     * When 'snapshot.mode' is set as custom, this setting must be set to
     * specify a the name of the custom implementation provided in the 'name()'
     * method. The implementations must implement the 'Snapshotter' interface
     * and is called on each app boot to determine whether to do a snapshot.
     */
    private String snapshotModeCustomName;
    /**
     * This property contains a comma-separated list of fully-qualified tables
     * (DB_NAME.TABLE_NAME) or (SCHEMA_NAME.TABLE_NAME), depending on the
     * specific connectors. Select statements for the individual tables are
     * specified in further configuration properties, one for each table,
     * identified by the id
     * 'snapshot.select.statement.overrides.DB_NAME.TABLE_NAME' or
     * 'snapshot.select.statement.overrides.SCHEMA_NAME.TABLE_NAME',
     * respectively. The value of those properties is the select statement to
     * use when retrieving data from the specific table during snapshotting. A
     * possible use case for large append-only tables is setting a specific
     * point where to start (resume) snapshotting, in case a previous
     * snapshotting was interrupted.
     */
    private String snapshotSelectStatementOverrides;
    /**
     * Controls the order in which tables are processed in the initial snapshot.
     * A descending value will order the tables by row count descending. A
     * ascending value will order the tables by row count ascending. A value of
     * disabled (the default) will disable ordering by row count.
     */
    private String snapshotTablesOrderByRowCount = "disabled";
    /**
     * The name of the SourceInfoStructMaker class that returns SourceInfo
     * schema and struct.
     */
    private String sourceinfoStructMaker = "io.debezium.connector.oracle.OracleSourceInfoStructMaker";
    /**
     * A delay period after the snapshot is completed and the streaming begins,
     * given in milliseconds. Defaults to 0 ms. The option is a long type.
     */
    private Long streamingDelayMs = 0L;
    /**
     * A comma-separated list of regular expressions that match the
     * fully-qualified names of tables to be excluded from monitoring
     */
    private String tableExcludeList;
    /**
     * The tables for which changes are to be captured
     */
    private String tableIncludeList;
    /**
     * Time, date, and timestamps can be represented with different kinds of
     * precisions, including: 'adaptive' (the default) bases the precision of
     * time, date, and timestamp values on the database column's precision;
     * 'adaptive_time_microseconds' like 'adaptive' mode, but TIME fields always
     * use microseconds precision; 'connect' always represents time, date, and
     * timestamp values using Kafka Connect's built-in representations for Time,
     * Date, and Timestamp, which uses millisecond precision regardless of the
     * database columns' precision.
     */
    private String timePrecisionMode = "adaptive";
    /**
     * Whether delete operations should be represented by a delete event and a
     * subsequent tombstone event (true) or only by a delete event (false).
     * Emitting the tombstone event (the default behavior) allows Kafka to
     * completely delete all events pertaining to the given key once the source
     * record got deleted.
     */
    private Boolean tombstonesOnDelete = false;
    /**
     * The name of the TopicNamingStrategy class that should be used to
     * determine the topic name for data change, schema change, transaction,
     * heartbeat event etc.
     */
    private String topicNamingStrategy = "io.debezium.schema.SchemaTopicNamingStrategy";
    /**
     * Topic prefix that identifies and provides a namespace for the particular
     * database server/cluster is capturing changes. The topic prefix should be
     * unique across all other connectors, since it is used as a prefix for all
     * Kafka topic names that receive events emitted by this connector. Only
     * alphanumeric characters, hyphens, dots and underscores must be accepted.
     */
    private String topicPrefix;
    /**
     * Class to make transaction context & transaction struct/schemas
     */
    private String transactionMetadataFactory = "io.debezium.pipeline.txmetadata.DefaultTransactionMetadataFactory";
    /**
     * Specify the constant that will be provided by Debezium to indicate that
     * the original value is unavailable and not provided by the database.
     */
    private String unavailableValuePlaceholder = "__debezium_unavailable_value";

    public Map<String, Object> getAdditionalProperties() {
        return additionalProperties;
    }

    public void setAdditionalProperties(Map<String, Object> additionalProperties) {
        this.additionalProperties = additionalProperties;
    }

    public Boolean getBridgeErrorHandler() {
        return bridgeErrorHandler;
    }

    public void setBridgeErrorHandler(Boolean bridgeErrorHandler) {
        this.bridgeErrorHandler = bridgeErrorHandler;
    }

    public OracleConnectorEmbeddedDebeziumConfiguration getConfiguration() {
        return configuration;
    }

    public void setConfiguration(
            OracleConnectorEmbeddedDebeziumConfiguration configuration) {
        this.configuration = configuration;
    }

    public String getInternalKeyConverter() {
        return internalKeyConverter;
    }

    public void setInternalKeyConverter(String internalKeyConverter) {
        this.internalKeyConverter = internalKeyConverter;
    }

    public String getInternalValueConverter() {
        return internalValueConverter;
    }

    public void setInternalValueConverter(String internalValueConverter) {
        this.internalValueConverter = internalValueConverter;
    }

    public String getOffsetCommitPolicy() {
        return offsetCommitPolicy;
    }

    public void setOffsetCommitPolicy(String offsetCommitPolicy) {
        this.offsetCommitPolicy = offsetCommitPolicy;
    }

    public Long getOffsetCommitTimeoutMs() {
        return offsetCommitTimeoutMs;
    }

    public void setOffsetCommitTimeoutMs(Long offsetCommitTimeoutMs) {
        this.offsetCommitTimeoutMs = offsetCommitTimeoutMs;
    }

    public Long getOffsetFlushIntervalMs() {
        return offsetFlushIntervalMs;
    }

    public void setOffsetFlushIntervalMs(Long offsetFlushIntervalMs) {
        this.offsetFlushIntervalMs = offsetFlushIntervalMs;
    }

    public String getOffsetStorage() {
        return offsetStorage;
    }

    public void setOffsetStorage(String offsetStorage) {
        this.offsetStorage = offsetStorage;
    }

    public String getOffsetStorageFileName() {
        return offsetStorageFileName;
    }

    public void setOffsetStorageFileName(String offsetStorageFileName) {
        this.offsetStorageFileName = offsetStorageFileName;
    }

    public Integer getOffsetStoragePartitions() {
        return offsetStoragePartitions;
    }

    public void setOffsetStoragePartitions(Integer offsetStoragePartitions) {
        this.offsetStoragePartitions = offsetStoragePartitions;
    }

    public Integer getOffsetStorageReplicationFactor() {
        return offsetStorageReplicationFactor;
    }

    public void setOffsetStorageReplicationFactor(
            Integer offsetStorageReplicationFactor) {
        this.offsetStorageReplicationFactor = offsetStorageReplicationFactor;
    }

    public String getOffsetStorageTopic() {
        return offsetStorageTopic;
    }

    public void setOffsetStorageTopic(String offsetStorageTopic) {
        this.offsetStorageTopic = offsetStorageTopic;
    }

    public Boolean getAutowiredEnabled() {
        return autowiredEnabled;
    }

    public void setAutowiredEnabled(Boolean autowiredEnabled) {
        this.autowiredEnabled = autowiredEnabled;
    }

    public String getArchiveDestinationName() {
        return archiveDestinationName;
    }

    public void setArchiveDestinationName(String archiveDestinationName) {
        this.archiveDestinationName = archiveDestinationName;
    }

    public Long getArchiveLogHours() {
        return archiveLogHours;
    }

    public void setArchiveLogHours(Long archiveLogHours) {
        this.archiveLogHours = archiveLogHours;
    }

    public String getBinaryHandlingMode() {
        return binaryHandlingMode;
    }

    public void setBinaryHandlingMode(String binaryHandlingMode) {
        this.binaryHandlingMode = binaryHandlingMode;
    }

    public String getColumnExcludeList() {
        return columnExcludeList;
    }

    public void setColumnExcludeList(String columnExcludeList) {
        this.columnExcludeList = columnExcludeList;
    }

    public String getColumnIncludeList() {
        return columnIncludeList;
    }

    public void setColumnIncludeList(String columnIncludeList) {
        this.columnIncludeList = columnIncludeList;
    }

    public String getColumnPropagateSourceType() {
        return columnPropagateSourceType;
    }

    public void setColumnPropagateSourceType(String columnPropagateSourceType) {
        this.columnPropagateSourceType = columnPropagateSourceType;
    }

    public String getConverters() {
        return converters;
    }

    public void setConverters(String converters) {
        this.converters = converters;
    }

    public String getCustomMetricTags() {
        return customMetricTags;
    }

    public void setCustomMetricTags(String customMetricTags) {
        this.customMetricTags = customMetricTags;
    }

    public String getDatabaseConnectionAdapter() {
        return databaseConnectionAdapter;
    }

    public void setDatabaseConnectionAdapter(String databaseConnectionAdapter) {
        this.databaseConnectionAdapter = databaseConnectionAdapter;
    }

    public String getDatabaseDbname() {
        return databaseDbname;
    }

    public void setDatabaseDbname(String databaseDbname) {
        this.databaseDbname = databaseDbname;
    }

    public String getDatabaseHostname() {
        return databaseHostname;
    }

    public void setDatabaseHostname(String databaseHostname) {
        this.databaseHostname = databaseHostname;
    }

    public String getDatabaseOutServerName() {
        return databaseOutServerName;
    }

    public void setDatabaseOutServerName(String databaseOutServerName) {
        this.databaseOutServerName = databaseOutServerName;
    }

    public String getDatabasePassword() {
        return databasePassword;
    }

    public void setDatabasePassword(String databasePassword) {
        this.databasePassword = databasePassword;
    }

    public String getDatabasePdbName() {
        return databasePdbName;
    }

    public void setDatabasePdbName(String databasePdbName) {
        this.databasePdbName = databasePdbName;
    }

    public Integer getDatabasePort() {
        return databasePort;
    }

    public void setDatabasePort(Integer databasePort) {
        this.databasePort = databasePort;
    }

    public Integer getDatabaseQueryTimeoutMs() {
        return databaseQueryTimeoutMs;
    }

    public void setDatabaseQueryTimeoutMs(Integer databaseQueryTimeoutMs) {
        this.databaseQueryTimeoutMs = databaseQueryTimeoutMs;
    }

    public String getDatabaseUrl() {
        return databaseUrl;
    }

    public void setDatabaseUrl(String databaseUrl) {
        this.databaseUrl = databaseUrl;
    }

    public String getDatabaseUser() {
        return databaseUser;
    }

    public void setDatabaseUser(String databaseUser) {
        this.databaseUser = databaseUser;
    }

    public String getDatatypePropagateSourceType() {
        return datatypePropagateSourceType;
    }

    public void setDatatypePropagateSourceType(
            String datatypePropagateSourceType) {
        this.datatypePropagateSourceType = datatypePropagateSourceType;
    }

    public String getDecimalHandlingMode() {
        return decimalHandlingMode;
    }

    public void setDecimalHandlingMode(String decimalHandlingMode) {
        this.decimalHandlingMode = decimalHandlingMode;
    }

    public Integer getErrorsMaxRetries() {
        return errorsMaxRetries;
    }

    public void setErrorsMaxRetries(Integer errorsMaxRetries) {
        this.errorsMaxRetries = errorsMaxRetries;
    }

    public String getEventProcessingFailureHandlingMode() {
        return eventProcessingFailureHandlingMode;
    }

    public void setEventProcessingFailureHandlingMode(
            String eventProcessingFailureHandlingMode) {
        this.eventProcessingFailureHandlingMode = eventProcessingFailureHandlingMode;
    }

    public String getHeartbeatActionQuery() {
        return heartbeatActionQuery;
    }

    public void setHeartbeatActionQuery(String heartbeatActionQuery) {
        this.heartbeatActionQuery = heartbeatActionQuery;
    }

    public Integer getHeartbeatIntervalMs() {
        return heartbeatIntervalMs;
    }

    public void setHeartbeatIntervalMs(Integer heartbeatIntervalMs) {
        this.heartbeatIntervalMs = heartbeatIntervalMs;
    }

    public String getHeartbeatTopicsPrefix() {
        return heartbeatTopicsPrefix;
    }

    public void setHeartbeatTopicsPrefix(String heartbeatTopicsPrefix) {
        this.heartbeatTopicsPrefix = heartbeatTopicsPrefix;
    }

    public Boolean getIncludeSchemaChanges() {
        return includeSchemaChanges;
    }

    public void setIncludeSchemaChanges(Boolean includeSchemaChanges) {
        this.includeSchemaChanges = includeSchemaChanges;
    }

    public Boolean getIncludeSchemaComments() {
        return includeSchemaComments;
    }

    public void setIncludeSchemaComments(Boolean includeSchemaComments) {
        this.includeSchemaComments = includeSchemaComments;
    }

    public String getIncrementalSnapshotWatermarkingStrategy() {
        return incrementalSnapshotWatermarkingStrategy;
    }

    public void setIncrementalSnapshotWatermarkingStrategy(
            String incrementalSnapshotWatermarkingStrategy) {
        this.incrementalSnapshotWatermarkingStrategy = incrementalSnapshotWatermarkingStrategy;
    }

    public String getIntervalHandlingMode() {
        return intervalHandlingMode;
    }

    public void setIntervalHandlingMode(String intervalHandlingMode) {
        this.intervalHandlingMode = intervalHandlingMode;
    }

    public Boolean getLobEnabled() {
        return lobEnabled;
    }

    public void setLobEnabled(Boolean lobEnabled) {
        this.lobEnabled = lobEnabled;
    }

    public Boolean getLogMiningArchiveLogOnlyMode() {
        return logMiningArchiveLogOnlyMode;
    }

    public void setLogMiningArchiveLogOnlyMode(
            Boolean logMiningArchiveLogOnlyMode) {
        this.logMiningArchiveLogOnlyMode = logMiningArchiveLogOnlyMode;
    }

    public Long getLogMiningArchiveLogOnlyScnPollIntervalMs() {
        return logMiningArchiveLogOnlyScnPollIntervalMs;
    }

    public void setLogMiningArchiveLogOnlyScnPollIntervalMs(
            Long logMiningArchiveLogOnlyScnPollIntervalMs) {
        this.logMiningArchiveLogOnlyScnPollIntervalMs = logMiningArchiveLogOnlyScnPollIntervalMs;
    }

    public Long getLogMiningBatchSizeDefault() {
        return logMiningBatchSizeDefault;
    }

    public void setLogMiningBatchSizeDefault(Long logMiningBatchSizeDefault) {
        this.logMiningBatchSizeDefault = logMiningBatchSizeDefault;
    }

    public Long getLogMiningBatchSizeMax() {
        return logMiningBatchSizeMax;
    }

    public void setLogMiningBatchSizeMax(Long logMiningBatchSizeMax) {
        this.logMiningBatchSizeMax = logMiningBatchSizeMax;
    }

    public Long getLogMiningBatchSizeMin() {
        return logMiningBatchSizeMin;
    }

    public void setLogMiningBatchSizeMin(Long logMiningBatchSizeMin) {
        this.logMiningBatchSizeMin = logMiningBatchSizeMin;
    }

    public Boolean getLogMiningBufferDropOnStop() {
        return logMiningBufferDropOnStop;
    }

    public void setLogMiningBufferDropOnStop(Boolean logMiningBufferDropOnStop) {
        this.logMiningBufferDropOnStop = logMiningBufferDropOnStop;
    }

    public String getLogMiningBufferInfinispanCacheEvents() {
        return logMiningBufferInfinispanCacheEvents;
    }

    public void setLogMiningBufferInfinispanCacheEvents(
            String logMiningBufferInfinispanCacheEvents) {
        this.logMiningBufferInfinispanCacheEvents = logMiningBufferInfinispanCacheEvents;
    }

    public String getLogMiningBufferInfinispanCacheGlobal() {
        return logMiningBufferInfinispanCacheGlobal;
    }

    public void setLogMiningBufferInfinispanCacheGlobal(
            String logMiningBufferInfinispanCacheGlobal) {
        this.logMiningBufferInfinispanCacheGlobal = logMiningBufferInfinispanCacheGlobal;
    }

    public String getLogMiningBufferInfinispanCacheProcessedTransactions() {
        return logMiningBufferInfinispanCacheProcessedTransactions;
    }

    public void setLogMiningBufferInfinispanCacheProcessedTransactions(
            String logMiningBufferInfinispanCacheProcessedTransactions) {
        this.logMiningBufferInfinispanCacheProcessedTransactions = logMiningBufferInfinispanCacheProcessedTransactions;
    }

    public String getLogMiningBufferInfinispanCacheSchemaChanges() {
        return logMiningBufferInfinispanCacheSchemaChanges;
    }

    public void setLogMiningBufferInfinispanCacheSchemaChanges(
            String logMiningBufferInfinispanCacheSchemaChanges) {
        this.logMiningBufferInfinispanCacheSchemaChanges = logMiningBufferInfinispanCacheSchemaChanges;
    }

    public String getLogMiningBufferInfinispanCacheTransactions() {
        return logMiningBufferInfinispanCacheTransactions;
    }

    public void setLogMiningBufferInfinispanCacheTransactions(
            String logMiningBufferInfinispanCacheTransactions) {
        this.logMiningBufferInfinispanCacheTransactions = logMiningBufferInfinispanCacheTransactions;
    }

    public Long getLogMiningBufferTransactionEventsThreshold() {
        return logMiningBufferTransactionEventsThreshold;
    }

    public void setLogMiningBufferTransactionEventsThreshold(
            Long logMiningBufferTransactionEventsThreshold) {
        this.logMiningBufferTransactionEventsThreshold = logMiningBufferTransactionEventsThreshold;
    }

    public String getLogMiningBufferType() {
        return logMiningBufferType;
    }

    public void setLogMiningBufferType(String logMiningBufferType) {
        this.logMiningBufferType = logMiningBufferType;
    }

    public String getLogMiningFlushTableName() {
        return logMiningFlushTableName;
    }

    public void setLogMiningFlushTableName(String logMiningFlushTableName) {
        this.logMiningFlushTableName = logMiningFlushTableName;
    }

    public Boolean getLogMiningIncludeRedoSql() {
        return logMiningIncludeRedoSql;
    }

    public void setLogMiningIncludeRedoSql(Boolean logMiningIncludeRedoSql) {
        this.logMiningIncludeRedoSql = logMiningIncludeRedoSql;
    }

    public String getLogMiningQueryFilterMode() {
        return logMiningQueryFilterMode;
    }

    public void setLogMiningQueryFilterMode(String logMiningQueryFilterMode) {
        this.logMiningQueryFilterMode = logMiningQueryFilterMode;
    }

    public Boolean getLogMiningRestartConnection() {
        return logMiningRestartConnection;
    }

    public void setLogMiningRestartConnection(Boolean logMiningRestartConnection) {
        this.logMiningRestartConnection = logMiningRestartConnection;
    }

    public Long getLogMiningScnGapDetectionGapSizeMin() {
        return logMiningScnGapDetectionGapSizeMin;
    }

    public void setLogMiningScnGapDetectionGapSizeMin(
            Long logMiningScnGapDetectionGapSizeMin) {
        this.logMiningScnGapDetectionGapSizeMin = logMiningScnGapDetectionGapSizeMin;
    }

    public Long getLogMiningScnGapDetectionTimeIntervalMaxMs() {
        return logMiningScnGapDetectionTimeIntervalMaxMs;
    }

    public void setLogMiningScnGapDetectionTimeIntervalMaxMs(
            Long logMiningScnGapDetectionTimeIntervalMaxMs) {
        this.logMiningScnGapDetectionTimeIntervalMaxMs = logMiningScnGapDetectionTimeIntervalMaxMs;
    }

    public Long getLogMiningSessionMaxMs() {
        return logMiningSessionMaxMs;
    }

    public void setLogMiningSessionMaxMs(Long logMiningSessionMaxMs) {
        this.logMiningSessionMaxMs = logMiningSessionMaxMs;
    }

    public Long getLogMiningSleepTimeDefaultMs() {
        return logMiningSleepTimeDefaultMs;
    }

    public void setLogMiningSleepTimeDefaultMs(Long logMiningSleepTimeDefaultMs) {
        this.logMiningSleepTimeDefaultMs = logMiningSleepTimeDefaultMs;
    }

    public Long getLogMiningSleepTimeIncrementMs() {
        return logMiningSleepTimeIncrementMs;
    }

    public void setLogMiningSleepTimeIncrementMs(
            Long logMiningSleepTimeIncrementMs) {
        this.logMiningSleepTimeIncrementMs = logMiningSleepTimeIncrementMs;
    }

    public Long getLogMiningSleepTimeMaxMs() {
        return logMiningSleepTimeMaxMs;
    }

    public void setLogMiningSleepTimeMaxMs(Long logMiningSleepTimeMaxMs) {
        this.logMiningSleepTimeMaxMs = logMiningSleepTimeMaxMs;
    }

    public Long getLogMiningSleepTimeMinMs() {
        return logMiningSleepTimeMinMs;
    }

    public void setLogMiningSleepTimeMinMs(Long logMiningSleepTimeMinMs) {
        this.logMiningSleepTimeMinMs = logMiningSleepTimeMinMs;
    }

    public String getLogMiningStrategy() {
        return logMiningStrategy;
    }

    public void setLogMiningStrategy(String logMiningStrategy) {
        this.logMiningStrategy = logMiningStrategy;
    }

    public Long getLogMiningTransactionRetentionMs() {
        return logMiningTransactionRetentionMs;
    }

    public void setLogMiningTransactionRetentionMs(
            Long logMiningTransactionRetentionMs) {
        this.logMiningTransactionRetentionMs = logMiningTransactionRetentionMs;
    }

    public String getLogMiningUsernameExcludeList() {
        return logMiningUsernameExcludeList;
    }

    public void setLogMiningUsernameExcludeList(
            String logMiningUsernameExcludeList) {
        this.logMiningUsernameExcludeList = logMiningUsernameExcludeList;
    }

    public String getLogMiningUsernameIncludeList() {
        return logMiningUsernameIncludeList;
    }

    public void setLogMiningUsernameIncludeList(
            String logMiningUsernameIncludeList) {
        this.logMiningUsernameIncludeList = logMiningUsernameIncludeList;
    }

    public Integer getMaxBatchSize() {
        return maxBatchSize;
    }

    public void setMaxBatchSize(Integer maxBatchSize) {
        this.maxBatchSize = maxBatchSize;
    }

    public Integer getMaxQueueSize() {
        return maxQueueSize;
    }

    public void setMaxQueueSize(Integer maxQueueSize) {
        this.maxQueueSize = maxQueueSize;
    }

    public Long getMaxQueueSizeInBytes() {
        return maxQueueSizeInBytes;
    }

    public void setMaxQueueSizeInBytes(Long maxQueueSizeInBytes) {
        this.maxQueueSizeInBytes = maxQueueSizeInBytes;
    }

    public String getMessageKeyColumns() {
        return messageKeyColumns;
    }

    public void setMessageKeyColumns(String messageKeyColumns) {
        this.messageKeyColumns = messageKeyColumns;
    }

    public String getNotificationEnabledChannels() {
        return notificationEnabledChannels;
    }

    public void setNotificationEnabledChannels(
            String notificationEnabledChannels) {
        this.notificationEnabledChannels = notificationEnabledChannels;
    }

    public String getNotificationSinkTopicName() {
        return notificationSinkTopicName;
    }

    public void setNotificationSinkTopicName(String notificationSinkTopicName) {
        this.notificationSinkTopicName = notificationSinkTopicName;
    }

    public String getOpenlogreplicatorHost() {
        return openlogreplicatorHost;
    }

    public void setOpenlogreplicatorHost(String openlogreplicatorHost) {
        this.openlogreplicatorHost = openlogreplicatorHost;
    }

    public Integer getOpenlogreplicatorPort() {
        return openlogreplicatorPort;
    }

    public void setOpenlogreplicatorPort(Integer openlogreplicatorPort) {
        this.openlogreplicatorPort = openlogreplicatorPort;
    }

    public String getOpenlogreplicatorSource() {
        return openlogreplicatorSource;
    }

    public void setOpenlogreplicatorSource(String openlogreplicatorSource) {
        this.openlogreplicatorSource = openlogreplicatorSource;
    }

    public Long getPollIntervalMs() {
        return pollIntervalMs;
    }

    public void setPollIntervalMs(Long pollIntervalMs) {
        this.pollIntervalMs = pollIntervalMs;
    }

    public String getPostProcessors() {
        return postProcessors;
    }

    public void setPostProcessors(String postProcessors) {
        this.postProcessors = postProcessors;
    }

    public Boolean getProvideTransactionMetadata() {
        return provideTransactionMetadata;
    }

    public void setProvideTransactionMetadata(Boolean provideTransactionMetadata) {
        this.provideTransactionMetadata = provideTransactionMetadata;
    }

    public Integer getQueryFetchSize() {
        return queryFetchSize;
    }

    public void setQueryFetchSize(Integer queryFetchSize) {
        this.queryFetchSize = queryFetchSize;
    }

    public String getRacNodes() {
        return racNodes;
    }

    public void setRacNodes(String racNodes) {
        this.racNodes = racNodes;
    }

    public Long getRetriableRestartConnectorWaitMs() {
        return retriableRestartConnectorWaitMs;
    }

    public void setRetriableRestartConnectorWaitMs(
            Long retriableRestartConnectorWaitMs) {
        this.retriableRestartConnectorWaitMs = retriableRestartConnectorWaitMs;
    }

    public String getSchemaHistoryInternal() {
        return schemaHistoryInternal;
    }

    public void setSchemaHistoryInternal(String schemaHistoryInternal) {
        this.schemaHistoryInternal = schemaHistoryInternal;
    }

    public String getSchemaHistoryInternalFileFilename() {
        return schemaHistoryInternalFileFilename;
    }

    public void setSchemaHistoryInternalFileFilename(
            String schemaHistoryInternalFileFilename) {
        this.schemaHistoryInternalFileFilename = schemaHistoryInternalFileFilename;
    }

    public Boolean getSchemaHistoryInternalSkipUnparseableDdl() {
        return schemaHistoryInternalSkipUnparseableDdl;
    }

    public void setSchemaHistoryInternalSkipUnparseableDdl(
            Boolean schemaHistoryInternalSkipUnparseableDdl) {
        this.schemaHistoryInternalSkipUnparseableDdl = schemaHistoryInternalSkipUnparseableDdl;
    }

    public Boolean getSchemaHistoryInternalStoreOnlyCapturedDatabasesDdl() {
        return schemaHistoryInternalStoreOnlyCapturedDatabasesDdl;
    }

    public void setSchemaHistoryInternalStoreOnlyCapturedDatabasesDdl(
            Boolean schemaHistoryInternalStoreOnlyCapturedDatabasesDdl) {
        this.schemaHistoryInternalStoreOnlyCapturedDatabasesDdl = schemaHistoryInternalStoreOnlyCapturedDatabasesDdl;
    }

    public Boolean getSchemaHistoryInternalStoreOnlyCapturedTablesDdl() {
        return schemaHistoryInternalStoreOnlyCapturedTablesDdl;
    }

    public void setSchemaHistoryInternalStoreOnlyCapturedTablesDdl(
            Boolean schemaHistoryInternalStoreOnlyCapturedTablesDdl) {
        this.schemaHistoryInternalStoreOnlyCapturedTablesDdl = schemaHistoryInternalStoreOnlyCapturedTablesDdl;
    }

    public String getSchemaNameAdjustmentMode() {
        return schemaNameAdjustmentMode;
    }

    public void setSchemaNameAdjustmentMode(String schemaNameAdjustmentMode) {
        this.schemaNameAdjustmentMode = schemaNameAdjustmentMode;
    }

    public String getSignalDataCollection() {
        return signalDataCollection;
    }

    public void setSignalDataCollection(String signalDataCollection) {
        this.signalDataCollection = signalDataCollection;
    }

    public String getSignalEnabledChannels() {
        return signalEnabledChannels;
    }

    public void setSignalEnabledChannels(String signalEnabledChannels) {
        this.signalEnabledChannels = signalEnabledChannels;
    }

    public Long getSignalPollIntervalMs() {
        return signalPollIntervalMs;
    }

    public void setSignalPollIntervalMs(Long signalPollIntervalMs) {
        this.signalPollIntervalMs = signalPollIntervalMs;
    }

    public String getSkippedOperations() {
        return skippedOperations;
    }

    public void setSkippedOperations(String skippedOperations) {
        this.skippedOperations = skippedOperations;
    }

    public Integer getSnapshotDatabaseErrorsMaxRetries() {
        return snapshotDatabaseErrorsMaxRetries;
    }

    public void setSnapshotDatabaseErrorsMaxRetries(
            Integer snapshotDatabaseErrorsMaxRetries) {
        this.snapshotDatabaseErrorsMaxRetries = snapshotDatabaseErrorsMaxRetries;
    }

    public Long getSnapshotDelayMs() {
        return snapshotDelayMs;
    }

    public void setSnapshotDelayMs(Long snapshotDelayMs) {
        this.snapshotDelayMs = snapshotDelayMs;
    }

    public Integer getSnapshotFetchSize() {
        return snapshotFetchSize;
    }

    public void setSnapshotFetchSize(Integer snapshotFetchSize) {
        this.snapshotFetchSize = snapshotFetchSize;
    }

    public String getSnapshotIncludeCollectionList() {
        return snapshotIncludeCollectionList;
    }

    public void setSnapshotIncludeCollectionList(
            String snapshotIncludeCollectionList) {
        this.snapshotIncludeCollectionList = snapshotIncludeCollectionList;
    }

    public String getSnapshotLockingMode() {
        return snapshotLockingMode;
    }

    public void setSnapshotLockingMode(String snapshotLockingMode) {
        this.snapshotLockingMode = snapshotLockingMode;
    }

    public Long getSnapshotLockTimeoutMs() {
        return snapshotLockTimeoutMs;
    }

    public void setSnapshotLockTimeoutMs(Long snapshotLockTimeoutMs) {
        this.snapshotLockTimeoutMs = snapshotLockTimeoutMs;
    }

    public Integer getSnapshotMaxThreads() {
        return snapshotMaxThreads;
    }

    public void setSnapshotMaxThreads(Integer snapshotMaxThreads) {
        this.snapshotMaxThreads = snapshotMaxThreads;
    }

    public String getSnapshotMode() {
        return snapshotMode;
    }

    public void setSnapshotMode(String snapshotMode) {
        this.snapshotMode = snapshotMode;
    }

    public Boolean getSnapshotModeConfigurationBasedSnapshotData() {
        return snapshotModeConfigurationBasedSnapshotData;
    }

    public void setSnapshotModeConfigurationBasedSnapshotData(
            Boolean snapshotModeConfigurationBasedSnapshotData) {
        this.snapshotModeConfigurationBasedSnapshotData = snapshotModeConfigurationBasedSnapshotData;
    }

    public Boolean getSnapshotModeConfigurationBasedSnapshotOnDataError() {
        return snapshotModeConfigurationBasedSnapshotOnDataError;
    }

    public void setSnapshotModeConfigurationBasedSnapshotOnDataError(
            Boolean snapshotModeConfigurationBasedSnapshotOnDataError) {
        this.snapshotModeConfigurationBasedSnapshotOnDataError = snapshotModeConfigurationBasedSnapshotOnDataError;
    }

    public Boolean getSnapshotModeConfigurationBasedSnapshotOnSchemaError() {
        return snapshotModeConfigurationBasedSnapshotOnSchemaError;
    }

    public void setSnapshotModeConfigurationBasedSnapshotOnSchemaError(
            Boolean snapshotModeConfigurationBasedSnapshotOnSchemaError) {
        this.snapshotModeConfigurationBasedSnapshotOnSchemaError = snapshotModeConfigurationBasedSnapshotOnSchemaError;
    }

    public Boolean getSnapshotModeConfigurationBasedSnapshotSchema() {
        return snapshotModeConfigurationBasedSnapshotSchema;
    }

    public void setSnapshotModeConfigurationBasedSnapshotSchema(
            Boolean snapshotModeConfigurationBasedSnapshotSchema) {
        this.snapshotModeConfigurationBasedSnapshotSchema = snapshotModeConfigurationBasedSnapshotSchema;
    }

    public Boolean getSnapshotModeConfigurationBasedStartStream() {
        return snapshotModeConfigurationBasedStartStream;
    }

    public void setSnapshotModeConfigurationBasedStartStream(
            Boolean snapshotModeConfigurationBasedStartStream) {
        this.snapshotModeConfigurationBasedStartStream = snapshotModeConfigurationBasedStartStream;
    }

    public String getSnapshotModeCustomName() {
        return snapshotModeCustomName;
    }

    public void setSnapshotModeCustomName(String snapshotModeCustomName) {
        this.snapshotModeCustomName = snapshotModeCustomName;
    }

    public String getSnapshotSelectStatementOverrides() {
        return snapshotSelectStatementOverrides;
    }

    public void setSnapshotSelectStatementOverrides(
            String snapshotSelectStatementOverrides) {
        this.snapshotSelectStatementOverrides = snapshotSelectStatementOverrides;
    }

    public String getSnapshotTablesOrderByRowCount() {
        return snapshotTablesOrderByRowCount;
    }

    public void setSnapshotTablesOrderByRowCount(
            String snapshotTablesOrderByRowCount) {
        this.snapshotTablesOrderByRowCount = snapshotTablesOrderByRowCount;
    }

    public String getSourceinfoStructMaker() {
        return sourceinfoStructMaker;
    }

    public void setSourceinfoStructMaker(String sourceinfoStructMaker) {
        this.sourceinfoStructMaker = sourceinfoStructMaker;
    }

    public Long getStreamingDelayMs() {
        return streamingDelayMs;
    }

    public void setStreamingDelayMs(Long streamingDelayMs) {
        this.streamingDelayMs = streamingDelayMs;
    }

    public String getTableExcludeList() {
        return tableExcludeList;
    }

    public void setTableExcludeList(String tableExcludeList) {
        this.tableExcludeList = tableExcludeList;
    }

    public String getTableIncludeList() {
        return tableIncludeList;
    }

    public void setTableIncludeList(String tableIncludeList) {
        this.tableIncludeList = tableIncludeList;
    }

    public String getTimePrecisionMode() {
        return timePrecisionMode;
    }

    public void setTimePrecisionMode(String timePrecisionMode) {
        this.timePrecisionMode = timePrecisionMode;
    }

    public Boolean getTombstonesOnDelete() {
        return tombstonesOnDelete;
    }

    public void setTombstonesOnDelete(Boolean tombstonesOnDelete) {
        this.tombstonesOnDelete = tombstonesOnDelete;
    }

    public String getTopicNamingStrategy() {
        return topicNamingStrategy;
    }

    public void setTopicNamingStrategy(String topicNamingStrategy) {
        this.topicNamingStrategy = topicNamingStrategy;
    }

    public String getTopicPrefix() {
        return topicPrefix;
    }

    public void setTopicPrefix(String topicPrefix) {
        this.topicPrefix = topicPrefix;
    }

    public String getTransactionMetadataFactory() {
        return transactionMetadataFactory;
    }

    public void setTransactionMetadataFactory(String transactionMetadataFactory) {
        this.transactionMetadataFactory = transactionMetadataFactory;
    }

    public String getUnavailableValuePlaceholder() {
        return unavailableValuePlaceholder;
    }

    public void setUnavailableValuePlaceholder(
            String unavailableValuePlaceholder) {
        this.unavailableValuePlaceholder = unavailableValuePlaceholder;
    }
}